2017
DOI: 10.1021/acs.organomet.6b00921
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N,N,O-Tridentate Mixed Lithium–Magnesium and Lithium–Aluminum Complexes: Synthesis, Characterization, and Catalytic Activities

Abstract: The syntheses and crystal structures of a series of heterobimetallic Li/Mg and Li/Al complexes prepared from an N,N,O-tridentate ligand are described. The ligand HOC­(CH2)5CH2N­(Me)­CH2CH2NMe2 (LH) and nBu2Mg were used to synthesize the homometallic magnesium alkoxide [{LMgOC­(CH2)5CH2 N­(Me)­CH2CH2 NMe2}2] (1), which was reacted with nBuLi to afford the lithium alkylmagnesiate [{Bu2Mg­{LiOC­(CH2)5CH2 N­(Me)­CH2CH2 NMe2… Show more

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Cited by 14 publications
(7 citation statements)
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“…For example, using benzaldehyde and dry isopropyl alcohol as a model reaction with 5 mol % of catalyst in toluene, the benzyl alcohol product was formed in yields of 87.6% and 52.7%, respectively (Scheme ). Using 90 a range of carbonyl compounds (six aldehydes and two ketones) were then selectively converted to the corresponding alcohols in yields ranging from 62.4 to 93.8% . Further information is provided in the aluminum section .…”
Section: Heterometallic Synergistic Main Group Complexesmentioning
confidence: 99%
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“…For example, using benzaldehyde and dry isopropyl alcohol as a model reaction with 5 mol % of catalyst in toluene, the benzyl alcohol product was formed in yields of 87.6% and 52.7%, respectively (Scheme ). Using 90 a range of carbonyl compounds (six aldehydes and two ketones) were then selectively converted to the corresponding alcohols in yields ranging from 62.4 to 93.8% . Further information is provided in the aluminum section .…”
Section: Heterometallic Synergistic Main Group Complexesmentioning
confidence: 99%
“…An interesting lithium aluminate complex was prepared by the deprotonation of the alcohol HOC­(CH 2 ) 5 ­CH 2 N­(Me)­CH 2 CH 2 NMe 2 (HOR′) with RAlMe 2 (R = Me, Cl) followed by cocomplexation with n BuLi (R = Me) or cocomplexation/salt metathesis with two equivalents of n BuLi (R = Cl) to give LiAl­(OR′)­(Me) x ( n Bu) 3‑ x (R = Me, x = 2, 222 ; R = Cl, x = 1, 223 ) . The presence of the N­(Me)­CH 2 CH 2 NMe 2 arm provided an intramolecular Lewis basic solvating source akin to TMEDA (note the alcohol was originally prepared by deprotonating a TMEDA arm and adding this across the ketone functionality of cyclohexanone), but this was not sufficient to provide access to discrete molecular bimetallic species, with polymerization occurring via CH 3 bridges.…”
Section: Heterometallic Synergistic Main Group Complexesmentioning
confidence: 99%
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“…These products were characterized by single crystal X-ray diffraction experiments as [(py)­(OR) 2 Ti­(κ 2 (O,μ-O′)­(OC 6 H 4– x (CH 2 O)-2)­(L) x ] (OR = OPr i , x = 1, L = H ( 1a ), OMe-3 ( 2a ), Br-5 ( 3a ·py), NO 2 -5 ( 4a ·4py), x = 2, Bu t -3,5 ( 5a ), I-3,5 ( 6a ); OR = ONep, x = 1, L = H ( 1b ), OMe-3 ( 2b ), Br-5 ( 3b ·py), NO 2 -5 ( 4b ), x = 2, Bu t -3,5 ( 5b ), I-3,5 ( 6b ·py)). Elucidation of the potential mechanism for this process on the basis the above reactivity was found to be consistent with a Meerwein–Pondorf–Verley (MPV)-like reduction pathway. The synthesis, characterization, and attempts to elucidate the reduction pathway of this unprecedented aldehyde reduction by a simple [M­(OR) 4 ] is presented.…”
Section: Introductionmentioning
confidence: 86%
“…They are also active catalysts for the polymerization of polar alkenes [26,27,28,29]. More recently, their activity in catalytic processes such as the hydroboration process [30] or Meerwein-Ponndorf-Verley (MPV) reactions [31] has also been described.…”
Section: Introductionmentioning
confidence: 99%